Abstract: This paper summarizes the outcomes of a numerical study about the phenomenon of hydrogen absorption in an axisymmetric tank geometry containing magnesium hydride heated to 300 C and at moderate storage pressure 1 MPa. The governing equations are solved with a fully implicit finite volume numerical scheme (as implemented in the commercial software FLUENT). Different kinetic reaction equations modeling hydrogen absorption are considered and the related numerical simulations are compared with ..
N° Revue: FDMP: Fluid Dynamics & Materials Processing - Pagination: 149-162 - Date: 01/03/2014
URL: http://www.techscience.com/doi/10.3970/fdmp.2014.010.149.pdf
Mots cles: Solid Hydrogen storage modeling
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